Photographic apparatus for recording theater attendance



Nov., 22, 1949 J. J. KAPLAN PHOTOGRPHIC APPARATUS FOR LECORDING THEATER ATTENDANCE l Filed Aug. 2l, 1946 2 Sheets-Sheet 2 [ll-QT Patented Nov. 22, 1949 UNITED STATES APATENT OFFICE This invention relates tofa recerding'a'ppa" ratus of the generali typeillustrated-in Patent No. 2,409,358 granted tome October l5; i946, and its principal object is tov provide an apparatus for' automatically recording visual conditions-in f responsev to-V an activating iri'u'enc'e consisting' of electromagnetic radiations'sucl`1`,'for example, as light of a selected axis of polarization and/orv wave length. y Further objects will be apparent 'from' accii:V sideration of theI following disclosure whereinthe invention is illustrated withparticular refer; ence to its use in recording the4` attendance at' a' motion-picture theatre' or auditorium'.

In accordance with the' present inventionk my recording apparatus comprises'a vcamera equipped with a nlm suitable for'`'recording the desired visual conditions and provided" with" an operating mechanism actuated by'a controldevice responsive to' electromagnetic radiations of predetermined characteristics'. The 'camera' and' associated operating mechanism' may be' ofi4 any" known type such, for example; as is disclosed in my aforementioned patent, the operation of whichis initiated by the opening and' closing of' an electric circuit. The control device comprises an' electric circuit which includes a detecting'mean's sensitive to selected electromagnetic radiations, in' association with amplifying means,` etc., suit-I able" to produce an electric current oi" suicientamplitude to initiate the operation ofthe camera. Although various electronic devices are'knovm which respond to a wide range of 'electromagnetic radiations, the particular type of detecting'` means will depend on the activatinginluence to which it is to respond. Practical considerations indicate the use of a light sensitive device such as a photo-voltaic cell responsive to visible" light Waves to generate a current or a photo-condimtive cell associated with a suitable electromot'ivey force to vary the impedance of an initiating' circuit, and in either case suitable means-are pro'- vided to amplify the current so as to effect the operation of the camera;

The preferred type oi' control device comprises ank electric circuit which includes a photoelectric (photc-conductive) cell associated with a polarizing screen or iilter operative in response to light of a predetermined axis ofy polarization striking the screen or` iiltery to vary the vini-peclance of the circuit so that a solenoidy or the like motor means associated with the circuit becomes operative to eiect the actuation ofthe came'ra.l The photoelectric cell may be placed at any point 2 atwhich it will receive the light froml apro; je'ctor,4 and hence may be mounted' infront of or behind a moving picturel screen against which light is projected, in which case the photele`c=' 'tr-ic cellf is connected electrically lto the' carriera.

yA lrecording apparatus illustrativeI of the fore#v goin-g is shown in the accompanying drawings, wherein:

Fig.. 1 is a front elevation of a camera con# structed inl 'accordance with the presentini/*ene tion;

Fig. 2 isa fragmentary top' plan viewof tl'iet camera and associated parts;

Fig. 3 is a side elevation withi parts broken away' and` shown in section;

Fig.V 4' 'is a fragmentary section substantially Oli'th'eil-in'eV 4 4* Of Fig. 3;v

Figi 5 isa View showing schematically the operating parts of thevk camera and control cuit' associated therewith; v

Fig'. 6'is" av schematicvieW illustrating thex'an-fq ner invsrh-ichrtheV4 camerais' operatd by a ilh'ilbl ingpro'e'ctedagainst av screen;4 and Fig. 7 is' a View showing the photographic" record produced by the' camera.

The recording apparatus comprises a:-v housingl having, adjacent toI its lower'endi a horizontal? partiti'on 2A (Fig. 3) which divides'th'e interi'oi" ofth'e housing into an upper recording''c'o`ri1p art-f4 ment 5' and lower compartr'nen'tl 6. The front Wall ofY the recording compartment is p'rc "'1i'cledir with a central opening to receive the lensoffa@ camera'.` and' the side walll of the lower compar't'j ment provided with an opening" through whiclr projectsa p'eris'cope 8. A reflector 9i supported byian'adjust'able bracket or arm lllsecu'redto the front'wa'll 'Oi' the housing; ll, is positioned so; as' toreect' an imageAv intor the' eye' of the p'eris'cope,

.l 'as shown in Figs. 1, Sand 4i The recording' come" part'ment 5 isof light-proof construction' and has a builtlin camera' which includes the lens'. if, shutter, and associatedoperating lever' f2" which controlsjthev period of exposure" of a' nlm" If mounted on rollers and suitably shielded the customarymanner. One of the' filmt-'supporting' rollers is" mounted'V on a' film-winding spindle' I`5"l (Fig: 4') which, when rotated, windsyuptheiir so as`t'o' carry the eiiposfed portion from the eii. posre" chamber' t6' and'V simultaneolisly"present"v an uheXposed portion'.

The I'aJ'OI" portion of the film" |`4 extends'4 through the mainV exposure chamber 'I6`an'd a` partition I'! defines a sub'-chamberv throu'gfl which onlyv the lower manginal portion' of' the' film extends, as shown in Fig. 3. Mounted within the said chamber is an elongate electrode lamp I8 horizontally disposed in spaced relation to the lower margin of the lm I4. Associated with the lamp I8 is a reflector I9 which may be integral with the partition I1, and a screen or lter 20 having optical characteristics suitable to produce the desired exposure on the adjacent area of lxn |4. It is to be understood that the partition thoroughly shields the lamp I8 so that there is substantially no leakage of light into the main exposure chamber I6.

Th periscope 8 projects into the interior of the lower compartment just below the lower edge of film |4 and its inner end is slightly inclined so as to project an image upwardly through a lightproof frusto-conical tube or shield 2|. A lens 22 is carried by the inner end of shield 2| and juxtaposed to the lower edge of the film I4 as shown in Fig. 4. The periscope may be the conventional design, embodying the usual prisms 24 and 25 associated with suitable lenses (not shown) so as to produce a true image for photographically recording on the iilm |4.

A casing 3| is mounted on the front and top walls of the housing I and within this casing is a. shutter-operating mechanism 32, associated lamp switch 33, and a nlm-winding mechanism 34, all indicated in Fig. 5. The operation of these mechanisms is governed by a control device responsive to light of a predetermined polarity, the construction and design of which is hereinafter more fully described.

Referring to Fig. 5, which schematically illustrates the aforementioned mechanisms, the shutter-operating mechanism 32 comprises a solenoid 48 associated with an armature or plunger 4| which is normally held in retracted position by a tension spring 42. The lower end of the plunger is pivotally connected with one arm of a lever 44 which is pivoted at 45, and the other arm of the lever is pivotally connected at 45 to a depending actuator rod 48 engageable with the operating lever I2 of the shutter. The free end of the lever 44 also carries a contact 58 which constitutes a part of switch 33 and is connected through the control device to power line A. The contact 58 is normally held spaced from its companion contact 5| which is connected in series with lamp I8 and to power line B. When the solenoid 48 is energized, the plunger 4| is advanced or moved upwardly and causes shutter lever I2 to be depressed, thereby opening the shutter and simultaneously closing contacts 58 and 5|, thereby closing the circuit through the lamp I8. When the solenoid 4I) is deenergized, the parts are restored to their normal position by spring 42, thus permitting the shutter to break the circuit through the lamp I8.

The film-winding mechanism 34 comprises an electric motor 55 connected through suitable gearing to a small shaft 56 which, in turn, is connected through suitable gearing to the projecting end of the film-winding spindle I5, it being understood that the gear ratios are such that one revolution of the shaft 56 is suflicient to rotate spindle I5 so as to wind up the exposed film and bring into position for exposure a succeeding area of the lm. The construction and arrangement of parts are such that the time interval required for one revolution of the shaft 55 may be of the order of A minute, although a greater or lesser interval would be permissible, depending upon the period of duration of the 4 activating influence to which the control device is responsive.

The shaft 56 carries a disk 58 formed with a notch 59 and a cam 68 formed with a risc element 6|. A lever 62, pvoted at 63, is formed with a pawl-like end which is normally held in notch 59 by a small tension spring 64, thus providing, in effect, pawl and ratchet elements normally operative to hold the disk 58 and associated parts locked against counter-clockwise rotation. The lever arm also carries a Contact 65 which is connected through the motor 55 to power line A. The contact 65 is normally held spaced from its companion contact 66 which is connected to power line B. The opposite arm of lever 62 is operatively associated with a pull bar 68 which is pivotally connected at 59 with the plunger 4I. The pull bar 68 is formed with a ratchet-like tooth 'I8 engageable with the adjacent end of lever 62 and is normally held in inoperative position by small tension spring 1|. One end of plunger I2, slidably mounted in guideways 13, is arranged so as normally to engage the dwell surface of the cam 68 and its other end is vengageable with the intermediate portion of the rides over and beyond the end of lever 62, the

spring I being operative to hold the pull bar in engagement with the lever 62; and when the solenoid is deenergized, the plunger 4| and pull bar '83 are retracted by spring 42, thereby causing the tooth 'I8 to pull the adjacent arm of lever |32 downwardly and raise the opposite arm upwardly, thus disengaging its pawl-like end from the notch 59 and simultaneously closing the circuit through the motor 55 and contacts 85, 66, whereupon the motor 55 operates to rotate shaft 56 in a counterclockwise direction. As the shaft 58 and associated parts rotate, the rise 8| of cam 68 throws the plunger 12 outwardly against pull bar 68 sufficiently to effect disengagement of the tooth 'I8 from the end of lever 82, whereupon lever 62 drops downwardly and rides upon the periphery of disk 58, in which position the lever 58 is eiective to maintain contacts 55, 66, closed. The shaft 56 continues its rotation until the notch 59 is about to complete one revolution, at which time the end of the lever |32 drops into notch 59, thus breaking the circuit through contacts 65, '68 to shut off the motor, and further rotation of disk 58 is arrested by the engagement of the end of lever arm 62 with the wall of notch 59, thus terminating the film-winding cycle.

The period during which the solenoid 40 is energized, and hence the time of operation of the camera, is governed by the control device which, as shown in Fig. 5, comprises a normally open switch 88 connected in series with a normally closed switch 8| in one branch of the power line A. The switch 88 is operated, i. e., closed, by

` a solenoid 82 and the switch 8| is opened by a solenoid 83, connected in energizing circuits 86 and 81, respectively. The energizingy circuit 86 comprises a photocell 9|) having one electrode connected to a potentiometer 9| and its other electrode connected to the grid of an amplifier tube 92, the usual resistor 94 being interposed between the grid connector and potentiometer 9|. The plate of tube 92 is connected to one terminal of solenoid 82 and the filament or cathode is connected to potentiometer 49 I. The other terminal of solenoid 82 is connected to the high voltage end of the potentiometer 9|, thus completing the energizing circuit 86.

The photocell 90 may be of conventional type, designed to respond to visible light, and is associated with a lens 85 so that when light strikes the lens it is directed against the photocell which responds to effect energization of solenoid 82 and consequent closing of switch 88.

The energizing circuit 81 is similar to the circuit 86 and includes a photocell |00, amplifier tube |82, and resistor |84, connected with potentiometer 9| and solenoid 83 in the manner above described. The photocell is screened with a light polarizing material or analyzer |05,such as a small sheet of light transmitting material, which permits only the passage of light polarized in one plane, for example, a horizontal plane, so that the energizing circuit 81 normally remains inactive and hence the solenoid 83 deenergized, except at such times when light polarized in a horizontal plane passes through the analyzer |85 and strikes photocell |80 to eiect energization of solenoid 83 and consequent opening of switch 8|.

The photocells 98 and |00 are disposed within a small housing ||0 which is mounted on the top of the camera housing I adjoining the casing 3|, the housing H8 being provided with a pair. of openings to accommodate the lens 95 and analyzer |85. A reflector ||-2,.carried by an adjustable bracket H4 secured to the casing v3| is provided to reflect light directly against the lens and filter. All other parts of the control device' may be located within the lower compartment 6 forwardly of an electric clock mechanism which includes a pair of di-sks and H6, the upper parts of which extend through a suitable opening in partition 2 in juxtaposition to be the lowerU end of the screen, as shown in Figs. 3 and 4. The disks ||5 and ||8 are of translucent material and carry opaque characters indicating the day of the month and time of day, as in my aforementioned patent, and these disks are carried by arbors suitably connected with an electric clock motor designated by the number ||8.

Between disk I5 and the end of periscope tube 2| (Fig. 4), the partition 2 and shield 9 are suitably recessed to receive a translucent identifying card |28 (Fig. 7) on which is printed in opaque lettering the naine and location of the theatre. The construction and arrangement of parts is such that the lower margin of the lm I4 may record the title of the picture being displayed, the name and location of the theatre and the date and time of exhibition in the manner presently to be described.

The activating influence for initiating operation of the control device may comprise any suitable means for providing visible light polarized in a plane at right angles to the plane for which the analyzer |85 is designed to pass light, viz., vertically polarized light. Accordingly, a part of the moving picture lm being displayed, such as the leader which bears the title, serial number or other significant data, preferably comprises a section of polarizing material, so that light from the moving picture projector is properly polarized in passing through the leader, in which case the apparatus is so positioned that apart of such polarized light either falls directly on the lens 95 and analyzer |05, or is reflected from the moving picture screen S Aor. other suitable reflecting surface of .non-depolarizing'materialuii75- Where; i as. schematically illustrated in 'Fig.6.

the recording apparatus C' is ,located forwardly of the motion-.picture screen S. withfthe Ycamera lens I covering lSalI-seats ofifthefrauditoriumfand with lens-f95 andanalyzen |.05.2.disposed io'utside the beam B being vfprojected throughfihefpolarized leadersof lm- Fyby projector-'13, thereilector ||2 is'adjustedso .fasaftofreflect light: from the screen Sv against `theflens 95wand analyzer 'switches remains open.

When a moving picture lmi having a leader of@ polarized material is projected, the flight `beam B is polarized in a vertical plane, it being'understood that the length ofy the polarized section ;of the leader is sumcientto :produce a `properly polarized light for a rperiod suflicient to insure the proper period of exposure. The polarized light thus vproduced is .reflectedfrom the screen S against the reector ||2 whichin turn reilects the polarized light againstthe lens :95 and analyzer |85. Simultaneously ythe data carried by the polarized leader is reflected by mirror 9 intothe periscope 8.

The polarized light vstrikingfthe lens 95 falls on photocell whichweffects energ-ization of solenoid 82 and consequentclosingof `switchf80, and at the same time the reflected polarized light strikes analyzer |05. :Since analyzer `|85 passes light which is polarized' only in a horizontalplane, the 4reiiectedlight does notfall on the photocell |00 and hence it 'remainsV inactive, consequently permitting switch-18| to'remain closed. With switches 88 and 8| both closedthe. actuating circuit is brought intooperationto energizesolenoid 40 which, as aboveifexplained, operates 'simultaneously .the vcamera shutter'rand light |8.

After the polarized portion Aof vthe leader has passed, diiused light is projected andrreected ,by the screen "and the; horizontally polarized component of such :diiusedlight .passes through fanalyzer |05 and falls upon photocell |00. V.Consequently, kinitiating IcircuitJ .81 `)is throught rin-to operation andas .a result solenoid583.opens-switch 8|, thusibreaking the actuating circuit'and deenergizing solenoid 188.. The deenergization-.of solenoid 48 is followed bythe operation of the zfilmwinding mechanism, as vpreviously explained, thus completing the operating vcycle during-which the recording apparatusis automatically operative to photograph the vaudience andi simultaneously record the title of the picture, :the'name and location of the theatre, Land the date y'and timeoi such recording, as illustrated `in Fig'. 7.

In place Vof `the particular design above-described, .the lens may besuch as `-tovpermit the passageof lightof any wave length, but the analyzer |05 is replacedA by alsuitable Vfilter of a material which is impervious to the passage of light `of a given wavelength,vv in which event the leader. of lm F includes a portion which is of a 7. material permitting the passage of light of the wave length to which the lter is impervious. Hence, the operation of the recording apparatus is substantially identical, except that the activating influence consists of light of a given wave length, rather than light of a given polarity. Another alternative is to provide at 8|) a photocell sensitive to light oi al1 wave lengths and at |06 a photocell which is not sensitive to light of a given wave length, in which event the iilter may be dispensed with and the leader of film F includes a portion permitting the passage of light of said given wave length. In all other particulars the design and operation of the apparatus are the same.

While I have shown and described one desirable embodiment of the invention, it is to be understood that this disclosure is for the purpose of illustration and that various changes and modications may be made without departing from the spirit and scope of the invention as set forth in the appended claims.

I claim:

1. In a system for recording the attendance at an auditorium at a time when moving pictures are being projected from a film, recording apparatus comprising a control portion of said iilm which is composed of a material which transmits light of a predetermined character different from that transmitted by the remainder of the film, a camera having an operating member, energizable motor means for actuating said operating member, and control means for governing the energization of said motor means, including detecting means adapted to receive light projected through said control portion, said detecting means being responsive only to light of said predetermined character to effect the energization of said motor means and consequent operation oi said camera.

2. In a system for recording the attendance at an auditorium at a time when moving pictures are being projected from a film, recording apparatus comprising a control portion of said lm which is composed of a material which transmits light polarized in a predetermined plane, the remainder of the film transmitting unpolarized light, a camera having an operating member, energizable motor means for actuating said operating member,

and control means for governing the energization of said motor means, including detecting means f adapted to receive polarized light projected through said control portion, said detecting means being responsive only to light polarized in said predetermined plane to effect the energization of said motor means and consequent operation of said camera.

3. In a system for recording the attendance at an auditorium at a time when moving pictures are being projected from a film, recording apparatus comprising a control portion of said film which is composed of a material which transmits light of a predetermined wave length different from that transmitted by the remainder of the film, a. camera having an operating member, energiza'ble motor means for actuating said operating member, and control means for governing the energization of said motor means, including detecting means adapted to receive light projected through said control portion, said detecting means being responsive only to light of said predetermined wave length to effect the energization of said motor means and consequent operation of said camera.

4. In a system for recording the attendance at an auditorium at a time when moving pictures are being projected from a film portion com-f posed of a material which transmits light of a predetermined character different from that transmitted by the remainder of said film, recording apparatus comprising a camera having an operating member, motor means for actuating said operating member, and control means for governing the operation of said motor means, including an actuating circuit connected to said motor means and having two switches connected in series, energizing circuits each having a relay actuating one of the switches, a photoelectric cell adapted to receive light projected through said iilm and responsive to such projected light to produce variationsin the electrical characteristics of one of said energizing circuits so as to eiect the operation of the switch actuated by the relay connected therein, and a second photoelectric cell adapted to receive light projected through said iilm and responsive to light other than that having said predetermined characteristics to produce variations in the electrical characteristics of the other of said energizing circuits so as to effect the operation of the switch actuated by the relay connected therein, said switches being conjointly operative to effect the actuation of said operating member when light is projected through said portion of film composed of material which transmits light of said predetermined characteristic.

5. In a system for recording the attendance at an auditorium at a time when moving pictures are being projected from a lm having a portion composed of a material which transmits light polarized in a predetermined plane, the remainder of said iilm being of a material which transmits unpolarized light, recording apparatus comprising a camera having an operating member, motor means for actuating said operating member, and control means for governing the operation of said motor means, including an actuating circuit connected to said motor means and having two switches connected in series, two energizing circuits each having a relay actuating one of the switches, a photoelectric cell adapted to receive light projected through said film and responsive to such projected light to produce variations in the electrical characteristics of one of said energizing circuits so as to eiiect the operation of the switch actuated by the relay connected therein, a second photoelectric cell adapted to receive light projected through said film, and an analyzer interposed between said second photoelectric cell and said lm so that only light polarized in a plane normal to said predetermined plane is projected upon said second photoelectric cell to produce variations in the electrical characteristics of the other oi said energizing circuits so as to eiiect the operation of the switch actuated by the relay connected therein, said switches being conjointly operative to effect the actuation of said operating member when light is projected through said portion of film composed of lightpolarizing material.

6. In a system for recording the attendance at an auditorium at a time lwhen moving pictures are being projected from a lm having a portion composed of a material which transmits light of a predetermined wave length, the remainder of said iilm being of a material which transmits light having different wave lengths, recording apparatus comprising a camera hav.. ing an operating member, motor means for actuating said operating member, and control means for governing the operation of said motor means, including an actuating circuit connected to said motor means and having two switches connected in series, two energizing circuits each having a relay actuating one 0f the switches, a photoelectric cell adapted to receive light projected through said lm and responsive to such projected light to produce variations in the electrical characteristics of one 0f said energizing circuits so as to effect the operation of the switch actuated by the relay connected therein, a second photoelectric cell adapted to receive light projected through said lm, and a color lter interposed between said second photoelectric cell and said film so that only light having other than said predetermined wave length is projected upon said second photoelectric cell to produce variations in the electrical characteristics of the other of said energizing circuits so as to effect the operation of the switch actuated by the relay connected therein, said switches being conjointly operative to effect the actuation of said operating member when light is projected through said portion of film composed of material which transmits Iight of said predetermined wave length.

JACOB J KAPLAN.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 891,339 Hirt June 23, 1908 1,354,932 Wilson Oct. 5, 1920 1,950,273 Speakman Mar. 6, 1934 2,041,079 Lyle May 19, 1936 2,086,087 Melton July 6, 1937 2,109,361 Spiegel Feb. 22, 1938 2,135,575 Hansch et a1 Nov. 8, 1938 2,311,914 Tin et al Feb. 23, 1943 2,315,978 Mooreeld Apr. 6, 1943 2,402,580 Roters June 25, 1946 2,409,358 Kaplan Oct. 15, 1946 

